taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
DB578615C5705B27BA46D29A15810478.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229335	https://doi.org/10.3897/mycokeys.112.136158.figure1	Figure 1. 50 % majority-rule consensus tree from the Bayesian analysis of sequences of 45 S nuc rDNA concatenated with rpb 1 sequences of Macrodominikia compressa (= Isolate 517), Delicatispora indica, Dominikia paraminuta, 33 other species of Glomerales, as well as Entrophospora claroidea serving as outgroup. The new genera and species are in bold font. The Bayesian posterior probabilities ≥ 0.90 and ML bootstrap values ≥ 50 % are shown near the branches, respectively. Bar indicates 0.1 expected change per site per branch.	Figure 1. 50 % majority-rule consensus tree from the Bayesian analysis of sequences of 45 S nuc rDNA concatenated with rpb 1 sequences of Macrodominikia compressa (= Isolate 517), Delicatispora indica, Dominikia paraminuta, 33 other species of Glomerales, as well as Entrophospora claroidea serving as outgroup. The new genera and species are in bold font. The Bayesian posterior probabilities ≥ 0.90 and ML bootstrap values ≥ 50 % are shown near the branches, respectively. Bar indicates 0.1 expected change per site per branch.	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
60062287D34E5DBF8C6FD9F6B3F88A50.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229335	https://doi.org/10.3897/mycokeys.112.136158.figure1	Figure 1. 50 % majority-rule consensus tree from the Bayesian analysis of sequences of 45 S nuc rDNA concatenated with rpb 1 sequences of Macrodominikia compressa (= Isolate 517), Delicatispora indica, Dominikia paraminuta, 33 other species of Glomerales, as well as Entrophospora claroidea serving as outgroup. The new genera and species are in bold font. The Bayesian posterior probabilities ≥ 0.90 and ML bootstrap values ≥ 50 % are shown near the branches, respectively. Bar indicates 0.1 expected change per site per branch.	Figure 1. 50 % majority-rule consensus tree from the Bayesian analysis of sequences of 45 S nuc rDNA concatenated with rpb 1 sequences of Macrodominikia compressa (= Isolate 517), Delicatispora indica, Dominikia paraminuta, 33 other species of Glomerales, as well as Entrophospora claroidea serving as outgroup. The new genera and species are in bold font. The Bayesian posterior probabilities ≥ 0.90 and ML bootstrap values ≥ 50 % are shown near the branches, respectively. Bar indicates 0.1 expected change per site per branch.	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
DE6C09F5C5D658FCB1906F6B7F7D5A93.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229336	https://doi.org/10.3897/mycokeys.112.136158.figure2	Figure 2. Dominikia paraminuta A – C cluster of spores (sp) with subtending hypha (sh), and sterile hyphae (sth) D – G spore wall layers (swl) 1–3 continuous with subtending hyphal wall layers (shwl) 1–3; septum (s) connecting the inner surfaces of shwl 2 is indicated in G, H arbuscule (a), vesicle (v), and coiled hyphae (c) in mycorrhizal root of Plantago lanceolata stained in 0.1 % Trypan blue C, D, H spores and mycorrhizal structures in PVLG E, F, G spores in PVLG + Melzer’s reagent A, B scanning electron microscopy C – H differential interference microscopy. Scale bars: 20 μm (A); 20 μm (B); 10 μm (C – H).	Figure 2. Dominikia paraminuta A – C cluster of spores (sp) with subtending hypha (sh), and sterile hyphae (sth) D – G spore wall layers (swl) 1–3 continuous with subtending hyphal wall layers (shwl) 1–3; septum (s) connecting the inner surfaces of shwl 2 is indicated in G, H arbuscule (a), vesicle (v), and coiled hyphae (c) in mycorrhizal root of Plantago lanceolata stained in 0.1 % Trypan blue C, D, H spores and mycorrhizal structures in PVLG E, F, G spores in PVLG + Melzer’s reagent A, B scanning electron microscopy C – H differential interference microscopy. Scale bars: 20 μm (A); 20 μm (B); 10 μm (C – H).	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
65C2AB47776550409DA8BCE5E0056791.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229337	https://doi.org/10.3897/mycokeys.112.136158.figure3	Figure 3. Macrodominikia compressa A cluster of spores (sp) with subtending hypha (sh) B spore wall layers (swl) 1–4 and subtending hyphal wall layers (shwl) 1–3; shwl 4 is not visible C spore wall layers (swl) 1–4 D – H spore wall layers (swl) 1–4 continuous with subtending hyphal wall layers (shwl) 1–4; septum (s) formed by shwl 4 is indicated A spores in PVLG B – H spores in PVLG + Melzer’s reagent A – H differential interference microscopy. Scale bars: 20 μm (A); 10 μm (B – H).	Figure 3. Macrodominikia compressa A cluster of spores (sp) with subtending hypha (sh) B spore wall layers (swl) 1–4 and subtending hyphal wall layers (shwl) 1–3; shwl 4 is not visible C spore wall layers (swl) 1–4 D – H spore wall layers (swl) 1–4 continuous with subtending hyphal wall layers (shwl) 1–4; septum (s) formed by shwl 4 is indicated A spores in PVLG B – H spores in PVLG + Melzer’s reagent A – H differential interference microscopy. Scale bars: 20 μm (A); 10 μm (B – H).	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
65C2AB47776550409DA8BCE5E0056791.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229338	https://doi.org/10.3897/mycokeys.112.136158.figure4	Figure 4. Macrodominikia compressa A remnants (r) of spore wall layer (swl) 1 and spore wall layers (swl) 2–4; spore subtending hypha (sh) is indicated in B Microkamienskia perpusilla C cluster of spores formed in the growth substrate of a single-species culture; swl 1 and 2 and spore subtending hypha (sh) are indicated D cluster of spores produced inside a spore of Racocetra species extracted from a trap culture; swl 1 and 2 are indicated A, B, C spores in PVLG D spores in PVLG + Melzer’s reagent A – D differential interference microscopy. Scale bars: 10 μm (A – D).	Figure 4. Macrodominikia compressa A remnants (r) of spore wall layer (swl) 1 and spore wall layers (swl) 2–4; spore subtending hypha (sh) is indicated in B Microkamienskia perpusilla C cluster of spores formed in the growth substrate of a single-species culture; swl 1 and 2 and spore subtending hypha (sh) are indicated D cluster of spores produced inside a spore of Racocetra species extracted from a trap culture; swl 1 and 2 are indicated A, B, C spores in PVLG D spores in PVLG + Melzer’s reagent A – D differential interference microscopy. Scale bars: 10 μm (A – D).	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
93569CDEC68350689D8C34906ADFADF8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229338	https://doi.org/10.3897/mycokeys.112.136158.figure4	Figure 4. Macrodominikia compressa A remnants (r) of spore wall layer (swl) 1 and spore wall layers (swl) 2–4; spore subtending hypha (sh) is indicated in B Microkamienskia perpusilla C cluster of spores formed in the growth substrate of a single-species culture; swl 1 and 2 and spore subtending hypha (sh) are indicated D cluster of spores produced inside a spore of Racocetra species extracted from a trap culture; swl 1 and 2 are indicated A, B, C spores in PVLG D spores in PVLG + Melzer’s reagent A – D differential interference microscopy. Scale bars: 10 μm (A – D).	Figure 4. Macrodominikia compressa A remnants (r) of spore wall layer (swl) 1 and spore wall layers (swl) 2–4; spore subtending hypha (sh) is indicated in B Microkamienskia perpusilla C cluster of spores formed in the growth substrate of a single-species culture; swl 1 and 2 and spore subtending hypha (sh) are indicated D cluster of spores produced inside a spore of Racocetra species extracted from a trap culture; swl 1 and 2 are indicated A, B, C spores in PVLG D spores in PVLG + Melzer’s reagent A – D differential interference microscopy. Scale bars: 10 μm (A – D).	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
93569CDEC68350689D8C34906ADFADF8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1229335	https://doi.org/10.3897/mycokeys.112.136158.figure1	Figure 1. 50 % majority-rule consensus tree from the Bayesian analysis of sequences of 45 S nuc rDNA concatenated with rpb 1 sequences of Macrodominikia compressa (= Isolate 517), Delicatispora indica, Dominikia paraminuta, 33 other species of Glomerales, as well as Entrophospora claroidea serving as outgroup. The new genera and species are in bold font. The Bayesian posterior probabilities ≥ 0.90 and ML bootstrap values ≥ 50 % are shown near the branches, respectively. Bar indicates 0.1 expected change per site per branch.	Figure 1. 50 % majority-rule consensus tree from the Bayesian analysis of sequences of 45 S nuc rDNA concatenated with rpb 1 sequences of Macrodominikia compressa (= Isolate 517), Delicatispora indica, Dominikia paraminuta, 33 other species of Glomerales, as well as Entrophospora claroidea serving as outgroup. The new genera and species are in bold font. The Bayesian posterior probabilities ≥ 0.90 and ML bootstrap values ≥ 50 % are shown near the branches, respectively. Bar indicates 0.1 expected change per site per branch.	2025-01-22	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio		Zenodo	biologists	Błaszkowski, Janusz;Zubek, Szymon;Milczarski, Paweł;Malinowski, Ryszard;Niezgoda, Piotr;Goto, Bruno Tomio			
